System for Burn-In Testing of Electronic Devices

1. A burn-in board assembly, comprising; a burn-in board substrate; a plurality of burn-in sockets on the burn-in board substrate, each to receive a respective electronic device; a plurality of burn-in board signal connectors secured to the burn-in board substrate, each burn-in board signal connector having a surface for releasably mating with a respective surface of a respective signal contact of another assembly upon movement of the burn-in board substrate in an insertion direction and each signal connector being capable of carrying maximum direct current having a first magnitude; a plurality of burn-in board signal conductors connecting the burn-in board signal connectors to signal contacts on the devices; a plurality of burn-in board power connectors secured to the burn-in board substrate, each burn-in board power connector having a surface for releasably mating with a respective surface of a respective power contact of the other assembly upon said movement of the burn-in board substrate in the insertion direction and each power connector being capable of carrying maximum direct current having a second magnitude which is larger than the first magnitude; and a plurality of burn-in board power conductors connecting each burn-in board power connector individually to a respective power contact on a respective one of the devices.

2. The burn-in board assembly of claim 1 , wherein the second magnitude is at least 7 A.

3. The burn-in board assembly of claim 1 , wherein the second magnitude is at least 1.5 times the first magnitude.

4. The burn-in board assembly of claim 1 , wherein the second magnitude is at least 4 A more than the first magnitude.

5. The burn-in board assembly of claim 1 , wherein the second magnitude is at least 7 A, at least 1.5 times the first magnitude, and at least 4 A more than the first magnitude.

6. The burn-in board assembly of claim 1 , wherein each burn-in board power conductor is capable of carrying maximum direct current of a magnitude which is larger than the first magnitude.

7. The burn-in board assembly of claim 1 , wherein the burn-in board signal connectors and the burn-in board power connectors are in two distinct groups.

8. The burn-in board assembly of claim 1 , wherein the signal contacts are at the same locations on at least two of the devices and the power contacts are at the same locations on the devices.

9. The driver assembly of claim 1 , wherein the burn-in board signal connectors and burn-in board power connectors simultaneously mate with the signal connectors and power connectors, respectively, of the other system when the burn-in substrate is moved in an insertion direction in a plane of the burn-in substrate.

10. The burn-in board assembly of claim 1 , wherein the burn-in board power conductors connect at least five of the burn-in board power connectors individually to at least five of the devices.

11. The burn-in board assembly of claim 10 , wherein the burn-in board power conductors connect at least 10 of the burn-in board power connectors individually to at least 10 of the devices.

12. The burn-in board assembly of claim 1 , wherein movement of the burn-in board substrate in an insertion direction causes engagement of the burn-in board signal connectors with the signal contacts and engagement of the burn-in board power connectors with the power contacts.

13. The burn-in board assembly of claim 12 , wherein the burn-in board power connectors are pins and the burn-in board signal connectors are edge fingers on a surface at an edge of the burn-in board substrate.

14. The burn-in board assembly of claim 1 , wherein the burn-in board signal connectors and the burn-in board power connectors are different types of connectors.

15. The burn-in board assembly of claim 14 , wherein the burn-in board signal connectors are edge fingers.

16. The burn-in board assembly of claim 15 , wherein the surface of each burn-in board power connector is cylindrical.

17. The burn-in board assembly of claim 16 , wherein the surface of each burn-in board power connector is circular cylindrical.

18. The burn-in board assembly of claim 16 , wherein each burn-in board power connector is a respective pin.

19. The burn-in board assembly of claim 15 , further comprising: a burn-in board power connector block, the burn-in board power connectors being secured to the burn-in board power connector block, and the burn-in board power connector block being secured to the burn-in board substrate independent from the burn-in board signal connectors.

20. The burn-in board assembly of claim 19 , further comprising: a burn-in board daughter card, the burn-in board power connector being secured to the burn-in board daughter card and the burn-in board daughter card being secured to the burn-in board substrate independent from the burn-in board signal connectors.

21. The burn-in board assembly of claim 20 , wherein portions of the burn-in board power conductors form traces, the traces spreading from one another from the burn-in board power connectors to locations where the burn-in board power conductors leave the burn-in board daughter card.

22. The burn-in board assembly of claim 21 , wherein the traces spread by at least 25%.

23. A burn-in board assembly, comprising; a burn-in board substrate; a plurality of burn-in sockets on the burn-in board substrate, each to receive a respective electronic device; a plurality of burn-in board signal edge finger connectors on a surface at an edge of the burn-in board substrate, each burn-in board signal edge finger connector having a surface for releasably mating with a respective surface of a respective signal contact of another assembly upon movement of the burn-in board substrate in an insertion direction; a plurality of burn-in board signal conductors connecting the burn-in board signal edge finger connectors to signal contacts on the devices; a plurality of burn-in board power connectors secured to the burn-in board substrate, each burn-in board power connector having a cylindrical contact surface for releasably mating with a respective surface of a respective power contact of the other assembly upon said movement of the burn-in board substrate in the insertion direction; and a plurality of burn-in board power conductors connecting each burn-in board power connector to power contacts on the devices.

24. The burn-in board assembly of claim 23 , wherein the cylindrical contact surfaces are circular cylindrical contact surfaces.

25. The burn-in board assembly of claim 23 , wherein the burn-in board power connectors are pins.

26. The driver assembly of claim 23 , wherein the burn-in board signal connectors and burn-in board power connectors simultaneously mate with the signal connectors and power connectors, respectively, of the other system when the burn-in substrate is moved in an insertion direction in a plane of the burn-in substrate.